Fluid Dynamics at the Interface between Soft Elastic Solids

软弹性固体界面处的流体动力学

• 批准号: 272908054
• 负责人: Professor Dr. Gert Heinrich
• 金额: --
• 依托单位: Leibniz-Institut für Polymerforschung Dresden (IPF)
• 依托单位国家: 德国
• 项目类别: Research Grants
• 财政年份: 2015
• 资助国家: 德国
• 起止时间: 2014-12-31 至 2016-12-31
• 项目状态: 已结题
• 来源: https://gepris.dfg.de/gepris/projekt/272908054?language=en
• 关键词: Fluid; Dynamics; Interface; between; Soft

Fluid dynamics at interfaces between contacting solids with surface roughness is a topic of huge practical importance, e.g., for tire-road friction, noise generation of wiper blades, stick-slip motion of the rubber stopper in syringes or the leak-rate of seals. For systems where the fluid wets the interface (no dewetting transition) the influence of the surface roughness on the fluid flow can be taken into account via so called fluid flow factors.We have developed methods for how to calculate the fluid flow factors, combining the Bruggeman effective medium theory with the Persson contact mechanics theory. However, this theory does not include the deformations of the asperities by the fluid pressure distribution. In this individual project in the bundled proposal: Dewetting and Adhesion between Rubber and (irregular) Rough Surfaces: From Molecular Basics to Engineering Contacts, we will extend the theory to include this effect, and study its influence in different applications (mixed lubrication and fluid squeeze-out). In many applications a thin fluid film is not stable but will undergo a dewetting transition, at least for low sliding speeds, which can have a profound effect on the friction of sliding contacts, or the leak-rate of static or dynamic seals. A dewetting transition occurs, for example, for wiper blades on hydrophobic (e.g. wax coated) glass at low sliding speed resulting in stick-slip motion, bad wiper action and noise. We will extend the fluid dynamics theory to dewetting systems. We will first determine the critical sliding velocity v = vc below which dewetting will occur, and study how the (negative) spreading pressure (driving force for dewetting) influence the fluid flow dynamics for v < vc. We will also perform model experiments to test the heory, and also analyze theoretically results obtained by our partners in the bundled proposal. The final objective is to obtain numerical procedures for calculating fluid flow at interfaces with random roughness for both wetting and non-wetting fluid-solid combinations.

具有表面粗糙度的接触固体之间界面的流体动力学是一个具有巨大实际重要性的课题，例如，轮胎与路面的摩擦、雨刷片的噪音产生、注射器中橡胶塞的粘滑运动或密封件的泄漏率。对于流体润湿界面（无去湿过渡）的系统，可以通过所谓的流体流动因子考虑表面粗糙度对流体流动的影响。我们结合布鲁格曼有效介质理论和佩尔森接触力学理论，开发了计算流体流动因子的方法。然而，该理论不包括由流体压力分布引起的凹凸体的变形。在捆绑提案中的这个单独项目中：橡胶和（不规则）粗糙表面之间的去湿和粘附：从分子基础知识到工程接触，我们将扩展该理论以包含这种效应，并研究其在不同应用（混合润滑和流体挤出）中的影响。在许多应用中，薄流体膜不稳定，但会经历去湿转变，至少对于低滑动速度而言，这会对滑动接触的摩擦或静态或动态密封的泄漏率产生深远的影响。例如，疏水性（例如涂蜡）玻璃上的雨刷片在低滑动速度下会发生去湿转变，导致粘滑运动、雨刷动作不良和噪音。我们将把流体动力学理论扩展到去湿系统。我们将首先确定临界滑动速度 v = vc，低于该速度将发生反润湿，并研究（负）扩散压力（反润湿的驱动力）如何影响 v < vc 的流体流动动力学。我们还将进行模型实验来检验理论，并对我们的合作伙伴在捆绑提案中获得的理论结果进行分析。最终目标是获得用于计算润湿和非润湿流固组合的随机粗糙度界面处的流体流动的数值程序。

项目成果

Adhesion, friction and viscoelastic properties for non-aged and aged Styrene Butadiene rubber

• DOI: 10.1016/j.triboint.2018.01.037
• 发表时间: 2018-05
• 期刊: Tribology International
• 影响因子: 6.2
• 作者: N. Rodriguez;L. Dorogin;K. Chew;B. Persson

Rubber adhesion below the glass transition temperature: Role of frozen-in elastic deformation

• DOI: 10.1209/0295-5075/120/36002
• 发表时间: 2017-11
• 期刊: Europhysics Letters
• 作者: A. Akulichev;A. Tiwari;L. Dorogin;A. Echtermeyer;B. Persson